First and foremost among the many factors that influence epitope presentation are the degradation of Ag, which results in peptide liberation, and the presence of HLA class I molecules able to present the peptides to T lymphocytes. To define the regions of HIV-1 Nef that can provide multiple T cell epitopes, we analyzed the Nef sequence and determined that there are 73 peptides containing 81 HLA-binding motifs. We tested the binding of these peptides to six common HLA molecules (HLA-A2, -A3, -A24, -B7, -B8, and -B35), and we showed that most of them were efficient binders (54% of motifs), especially peptides associating with HLA-A3, -B7/35, and -B8 molecules. Nef peptides most frequently recognized by T cells of HIV-1-infected individuals were 90-97, 135-143, 71-81, 77-85, 90-100, 73-82, and 128-137. The frequency of T cell recognition was not directly related to the strength of peptide-HLA binding. The generation of Nef epitopes is crucial; therefore, we investigated the digestion by the 20S proteasome of a large peptide, Nef(66-100). This fragment was efficiently cleaved, and NH(2)-terminally extended precursors of epitope 71-81 were recognized by T cells of an HIV-1-infected individual. These results suggest that a high frequency of T cell recognition may depend on proteasome cleavage.
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| http://dx.doi.org/10.4049/jimmunol.166.10.6164 | DOI Listing |
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Article Synopsis
- The study examines how long-term evolution of the HIV-1 Nef protein affects its ability to counteract the host factor SERINC5, which plays a role in viral infectivity.
- Analysis involved comparing Nef isolates from different infection stages in 19 individuals with subtype B or C HIV-1, revealing that subtype B showed a decline in Nef's ability to inhibit SERINC5 over time, unlike subtype C.
- The findings suggest that specific mutations in Nef are linked to variations in its function against SERINC5 and highlight the limited influence of host T cell responses on these mutations, providing insights into HIV-1 pathogenesis.*
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